The big five mass extinctions

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Biologists suspect we’re living through the sixth major mass extinction. Earth has witnessed five, when more than 75% of species disappeared.

Use this article to investigate how the Earth has changed over time long before humans arrived. It is suited to students in years 4, 6, 8, 9, and 10 studying Earth and Space, Chemical and Biological sciences.

Word Count: 602

Biologists suspect we’re living through the sixth major mass extinction. Earth has witnessed five mass extinctions when more than 75% of species disappeared. Palaeontologists spot them when species go missing from the global fossil record, including the iconic specimens shown here.

“We don’t always know what caused them but most had something to do with rapid climate change”, says Melbourne Museum palaeontologist Rolf Schmidt.

Graptolite. Credit: Jaime Murcia/Museum Victoria

Period: End Ordovician

When: 444 million years ago

Extinction: 86% of species lost

Species: Graptolite, 2-3 cm length

Graptolites, like most Ordovician life, were sea creatures. They were filter-feeding animals and colony builders.

Their demise over about a million years was probably caused by a short, severe ice age that lowered sea levels, possibly triggered by the uplift of the Appalachians.

The newly exposed silicate rock sucked CO2 out of the atmosphere, chilling the planet.

Trilobite. Credit: Chip Clark / Smithsonian Institution

Period: Late Devonian

When: 375 million years ago

Extinction: 75% of species lost

Species: Trilobite, 5 cm length

Trilobites were the most diverse and abundant animals that appeared in the Cambrian explosion 550 million years ago. Their great success was helped by their spiky armour and multifaceted eyes.

They survived the first great extinction but were nearly wiped out in the second. The likely culprit was the newly evolved land plants that emerged, covering the planet during the Devonian period.

Their deep roots stirred up the earth, releasing nutrients into the ocean. This might have triggered algal blooms which sucked oxygen out of the water, suffocating bottom dwellers like the trilobites.

Tabulate coral. Credit: Jaime Murcia/Museum Victoria

Period: End Permian

When: 251 million years ago

Extinction: 96% of species lost

Species: Tabulate coral, 5 cm length

Known as “the great dying”, this was by far the worst extinction event ever seen; it nearly ended life on Earth.

The tabulate corals were lost in this period – today’s corals are an entirely different group. What caused it?

A perfect storm of natural catastrophes – as is often the case with mass extinctions. A cataclysmic eruption near Siberia blasted CO2 into the atmosphere. Methanogenic bacteria responded by belching out methane, a potent greenhouse gas. Global temperatures surged while oceans acidified and stagnated, belching poisonous hydrogen sulfide.

“It set life back 300 million years,” says Schmidt. Rocks after this period record no coral reefs or coal deposits.

Conodont Teeth. Credit: Paul Taylor / Natural History Museum

Period: End Triassic

When: 200 million years ago

Extinction: 80% of species lost

Species: Conodont teeth, 1 mm

Palaeontologists were baffled about the origin of these toothy fragments, mistaking them for bits of clams or sponges.

But the discovery of an intact fossil in Scotland in the 1980s finally revealed their owner – a jawless eel-like vertebrate named the conodont which boasted this remarkable set of teeth lining its mouth and throat.

They were one of the first structures built from hydroxyapatite; a calcium-rich mineral that remains a key component of our own bones and teeth today.

Of all the great extinctions, the one that ended the Triassic is the most enigmatic. No clear cause has been found.

Ammonite. Credit: Jaime Murcia/Museum Victoria.

Period: End Cretaceous

When: 66 million years ago

Extinction: 76% of species lost

Species: Ammonite, 15 cm length

The delicate leafy sutures decorating this shell represent some advanced engineering, providing the fortification the squid-like ammonite required to withstand the pressure of deep dives in pursuit of its prey.

Dinosaurs may have ruled the land during the Cretaceous period but the oceans belonged to the ammonites. But volcanic activity and climate change already placed the ammonites under stress.

The asteroid impact that ended the dinosaurs’ reign provided the final blow. Only a few dwindling species of ammonites survived this period of mass extinctions.

Today, the ammonites’ oldest surviving relative is the nautilus. Will it survive the sixth great extinction?

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Years: 4, 6, 8, 9, 10


Biological Sciences –  Ecosystems, The Body, Living Things

Chemical Sciences – Atoms

Earth and Space Sciences – Rocks, Plate Tectonics, The Changing Earth

Additional: Careers, Maths, Technology

Concepts (South Australia):

Biological Sciences –  Interdependence and Ecosystems, Diversity and Evolution, Form and Function

Chemical Sciences – Change of Matter

Earth and Space Sciences – The Earth’s Surface


4, 6 & 8-10